Journal of Korea TAPPI ISSN:0253-3200(Print) 펄프종이기술

Tkaczyk, A., Mitrowska, K. and Posyniak, A., Synthetic organic dyes as contaminants of the aquatic environment and their implications for ecosystems: A review, Science of the Total Environment 717:137222 (2020).

Ismail, M., Akhtar, K., Khan, M. I., Kamal, T., Khan, M. A., Asiri, A. M., Seo, J. and Khan, S. B., Pollution, toxicity and carcinogenicity of organic dyes and their catalytic bio-remediation, Current Pharmaceutical Design 25(34):3645-3663 (2019).

Chieng, H. I., Priyantha, N. and Lim, L. B., Effective adsorption of toxic brilliant green from aqueous solution using peat of Brunei Darussalam: isotherms, thermodynamics, kinetics and regeneration studies, RSC Advances 5(44):34603-34615 (2015).

Aqeel, K., Mubarak, H. A., Amoako-Attah, J., Abdul-Rahaim, L. A., Al Khaddar, R., Abdellatif, M., Al-Janabi, A. and Hashim, K. S., Electrochemical removal of brilliant green dye from wastewater, In IOP Conference Series: Materials Science & Engineering (Vol. 888, No. 1, p. 012036), IOP Publishing (2020, July).

Mane, V. S., Mall, I. D. and Srivastava, V. C., Kinetic & equilibrium isotherm studies for the adsorptive removal of Brilliant Green dye from aqueous solution by rice husk ash, Journal of Environmental Management 84(4):390-400 (2007).

Vanholme, R., Demedts, B., Morreel, K., Ralph, J. and Boerjan, W., Lignin biosynthesis & structure, Plant Physiology 153(3):895-905 (2010).

Wu, Y., Zhang, S., Guo, X. and Huang, H., Adsorption of chromium (III) on lignin, Bioresource Technology 99(16):7709-7715 (2008).

An, L., Si, C., Bae, J. H., Jeong, H. and Kim, Y. S., One-step silanization and amination of lignin and its adsorption of Congo red and Cu (II) ions in aqueous solution, International Journal of Biological Macromolecules 159:222-230 (2020).

Chen, H., Qu, X., Liu, N., Wang, S., Chen, X. and Liu, S., Study of the adsorption process of heavy metals cations on Kraft lignin, Chemical Engineering Research and Design 139:248-258 (2018).

Demirbas, A., Adsorption of lead and cadmium ions in aqueous solutions onto modified lignin from alkali glycerol delignication, Journal of Hazardous Materials 109(1-3):221-226 (2004).

Albadarin, A. B., Collins, M. N., Naushad, M., Shirazian, S., Walker, G. and Mangwandi, C., Activated lignin-chitosan extruded blends for efficient adsorption of methylene blue, Chemical Engineering Journal 307:264-272 (2017).

Wu, Y., Zhang, M., Zhao, H., Yang, S. and Arkin, A., Functionalized mesoporous silica material and anionic dye adsorption: MCM-41 incorporated with amine groups for competitive adsorption of Acid Fuchsine and Acid Orange II, RSC Advances 4(106):61256-61267 (2014).

Heo, J. W., An, L., Chen, J., Bae, J. H. and Kim, Y. S., Preparation of amine-functionalized lignins for the selective adsorption of Methylene blue and Congo red, Chemosphere 295:133815 (2022).

Youe, W. J., Kim, S. J., Lee, S. M., Chun, S. J., Kang, J. and Kim, Y. S., MnO2-deposited lignin-based carbon nanofiber mats for application as electrodes in symmetric pseudocapacitors, International Journal of Biological Macromolecules 112:943-950 (2018).

An, L., Si, C., Wang, G., Choi, C. S., Yu, Y. H., Bae, J. H., Lee, S. M. and Kim, Y. S., Efficient and green approach for the esterification of lignin with oleic acid using surfactant-combined microreactors in water, BioResources 15(1):89-104 (2020).

Ding, Z., Hu, X., Zimmerman, A. R. and Gao, B., Sorption and cosorption of lead (II) and methylene blue on chemically modified biomass, Bioresource Technology 167:569-573 (2014).

Multani, R. S., Williams, H., Johnson, B., Li, R. and Waters, K. E., The effect of superstructure on the zeta potential, xanthate adsorption, and flotation response of pyrrhotite, Colloids and Surfaces A: Physicochemical and Engineering Aspects 551:108-116 (2018).

Lisperguer, J., Perez, P. and Urizar, S., Structure and thermal properties of lignins: characterization by infrared spectroscopy and differential scanning calorimetry, Journal of the Chilean Chemical Society 54(4):460-463 (2009).

Yue, X., Chen, F. and Zhou, X., Improved interfacial bonding of PVC/wood-flour composites by lignin amine modification, BioResources 6(2):2022-2044 (2011).

Banu, M., Radoi, A., Simion, M. and Kusko, M., Reproducible functionalization of silicon substrates intended for biomedical applications, In 2016 International Semiconductor Conference (CAS) pp. 151-154 (2016, October).

Gwon, J. G., Lee, S. Y., Doh, G. H. and Kim, J. H., Characterization of chemically modified wood fibers using FTIR spectroscopy for biocomposites, Journal of Applied Polymer Science 116(6):3212-3219 (2010).

Chen, J., An, L., Bae, J. H., Heo, J. W., Han, S. Y. and Kim, Y. S., Green and facile synthesis of aminated lignin-silver complex and its antibacterial activity, Industrial Crops and Products 173:114102 (2021).

Jakša, G., Štefane, B. and Kovač, J., XPS and AFM characterization of aminosilanes with different numbers of bonding sites on a silicon wafer, Surface and Interface Analysis 45(11-12):1709-1713 (2013).

Heo, J. W., Kim, M. S., Kim, M. J. and Kim, Y. S., Synthesis of Di-amine functionalized lignin derivative and its removal ability for heavy metal ions, Journal of Korea TAPPI 53(6):85-97 (2021).

Salleh, M. A. M., Mahmoud, D. K., Karim, W. A. W. A. and Idris, A., Cationic and anionic dye adsorption by agricultural solid wastes: a comprehensive review, Desalination 280(1-3):1-13 (2011).

Yu, K. L., Lee, X. J., Ong, H. C., Chen, W. H., Chang, J. S., Lin, C. S., Show, P. L. and Ling, T. C., Adsorptive removal of cationic methylene blue and anionic Congo red dyes using wet-torrefied microalgal biochar: Equilibrium, kinetic and mechanism modeling, Environmental Pollution 272:115986 (2021).

Yang, G., Wu, L., Xian, Q., Shen, F., Wu, J. and Zhang, Y., Removal of congo red and methylene blue from aqueous solutions by vermicompost-derived biochars, PLoS One 11(5):e0154562 (2016).

López-Luna, J., Ramírez-Montes, L. E., Martinez-Vargas, S., Martínez, A. I., Mijangos-Ricardez, O. F., González-Chávez, M. D. C. A., Carrillo-González, R., Solís-Domínguez, F. A., Cuevas-Díaz, M, D. C. and Vázquez-Hipólito, V., Linear and nonlinear kinetic and isotherm adsorption models for arsenic removal by manganese ferrite nanoparticles, SN Applied Sciences 1(8):1-19 (2019).

Malash, G. F. and El-Khaiary, M. I., Methylene blue adsorption by the waste of Abu-Tartour phosphate rock, Journal of Colloid and Interface Science 348(2):537-545 (2010).

Sharma, Y. C. and Upadhyay, S. N., Removal of a cationic dye from wastewaters by adsorption on activated carbon developed from coconut coir, Energy & Fuels 23(6):2983-2988 (2009).

Nethaji, S., Sivasamy, A. and Mandal, A. B., Adsorption isotherms, kinetics and mechanism for the adsorption of cationic and anionic dyes onto carbonaceous particles prepared from Juglans regia shell biomass, International Journal of Environmental Science and Technology 10(2):231-242 (2013).

Yao, Y., Xu, F., Chen, M., Xu, Z. and Zhu, Z., Adsorption behavior of methylene blue on carbon nanotubes, Bioresource Technology 101(9):3040-3046 (2010).

Yu, Y. H., An, L., Bae, J. H., Heo, J. W., Chen, J., Jeong, H. and Kim, Y. S., A novel biosorbent from hardwood cellulose nanofibrils grafted with Poly (m-Aminobenzene Sulfonate) for adsorption of Cr (VI), Frontiers in Bioengineering and Biotechnology 9:682070 (2021).

Feng, M., Yu, S., Wu, P., Wang, Z., Liu, S. and Fu, J., Rapid, high-efficient and selective removal of cationic dyes from wastewater using hollow polydopamine microcapsules: Isotherm, kinetics, thermodynamics and mechanism, Applied Surface Science 542:148633 (2021).

Abboud, M., Sahlabji, T., Haija, M. A., El-Zahhar, A. A., Bondock, S., Ismail, I. and Keshk, S. M., Synthesis and characterization of lignosulfonate/amino-functionalized SBA-15 nanocomposites for the adsorption of methylene blue from wastewater, New Journal of Chemistry 44(6):2291-2302 (2020).

Gao, Y., Li, Y., Zhang, L., Huang, H., Hu, J., Shah, S. M. and Su, X., Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide, Journal of Colloid and Interface Science 368(1):540-546 (2012).

Nasrullah, A., Saad, B., Bhat, A. H., Khan, A. S., Danish, M., Isa, M. H. and Naeem, A., Mangosteen peel waste as a sustainable precursor for high surface area mesoporous activated carbon: Characterization and application for methylene blue removal, Journal of Cleaner Production 211:1190-1200 (2019).

Dauenhauer, P. J. and Abdelrahman, O. A., A universal descriptor for the entropy of adsorbed molecules in confined spaces, ACS Central Science 4(9):1235-1243 (2018).

Tran, H. N., You, S. J. and Chao, H. P., Fast and efficient adsorption of methylene green 5 on activated carbon prepared from new chemical activation method, Journal of Environmental Management 188:322-336 (2017).

Sanaeepur, H., Kargari, A. and Nasernejad, B., Aminosilane-functionalization of a nanoporous Y-type zeolite for application in a cellulose acetate based mixed matrix membrane for CO₂ separation, Rsc Advances 4(109):63966-63976 (2014).